DiSCo: a sequence-based type-specific predictor of Dsr-dependent dissimilatory sulphur metabolism in microbial data

Sinje Neukirchen, Filipa L Sousa (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

Current methods in comparative genomic analyses for metabolic potential prediction of proteins involved in, or associated with the Dsr (dissimilatory sulphite reductase)-dependent dissimilatory sulphur metabolism are both time-intensive and computationally challenging, especially when considering metagenomic data. We developed DiSCo, a Dsr-dependent dissimilatory sulphur metabolism classification tool, which automatically identifies and classifies the protein type from sequence data. It takes user-supplied protein sequences and lists the identified proteins and their classification in terms of protein family and predicted type. It can also extract the sequence data from user-input to serve as basis for additional downstream analyses. DiSCo provides the metabolic functional prediction of proteins involved in Dsr-dependent dissimilatory sulphur metabolism with high levels of accuracy in a fast manner. We ran DiSCo against a dataset composed of over 190 thousand (meta)genomic records and efficiently mapped Dsr-dependent dissimilatory sulphur proteins in 1798 lineages across both prokaryotic domains. This allowed the identification of new micro-organisms belonging to Thaumarchaeota and Spirochaetes lineages with the metabolic potential to use the Dsr-pathway for energy conservation. DiSCo is implemented in Perl 5 and freely available under the GNU GPLv3 at https://github.com/Genome-Evolution-and-Ecology-Group-GEEG/DiSCo.
Original languageEnglish
Article number000603
JournalMicrobial genomics
Volume7
Issue number7
DOIs
Publication statusPublished - Jul 2021

Austrian Fields of Science 2012

  • 106005 Bioinformatics

Keywords

  • comparative genomics, dissimilatory sulphur oxidation, dissimilatory sulphate reduction, genotype-phenotype association, microbial physiology
  • OXIDATION
  • GEN-NOV
  • PROTEIN
  • dissimilatory sulphate reduction
  • ARCHAEOGLOBUS-FULGIDUS
  • BACTERIUM ALLOCHROMATIUM-VINOSUM
  • CRYSTAL-STRUCTURE
  • comparative genomics
  • genotype-phenotype association
  • SULFATE-REDUCTION
  • dissimilatory sulphur oxidation
  • microbial physiology
  • PURIFICATION
  • SULFITE REDUCTASE
  • DSRMKJOP COMPLEX
  • Comparative genomics
  • Dissimilatory sulphate reduction
  • Microbial physiology
  • Genotype-phenotype association
  • Dissimilatory sulphur oxidation

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